CN218897206U - Photovoltaic and photo-thermal integrated assembly - Google Patents

Abstract

The utility model relates to the technical field of solar energy photovoltaics, in particular to a photovoltaic and photo-thermal integrated assembly, which comprises: the aluminum frame is in a hollow rectangular structure, and glass is arranged on the lower surface of the aluminum frame; the water tank is arranged on the lower surface of the aluminum frame, and a water tank inlet is fixedly connected to the central symmetrical position of the side wall of one side of the water tank; the clamping frame is of a fang structure and is clamped on one side wall of the water tank; the beneficial effects are as follows: starting a circulating pump in the conversion pipe, driving cooling liquid to circulate in the aluminum alloy runner plate, transferring generated heat to the cooling liquid in the aluminum alloy runner plate in the power generation process of the photovoltaic plate, and then performing heat exchange between the cooling liquid and low-temperature water in the water tank through the conversion pipe, wherein the low-temperature water in the water tank is changed into high-temperature water which can be used as domestic hot water or winter heating water, so that the dual functions of power generation and hot water application are achieved, and the lower the temperature of the photovoltaic plate assembly is, the higher the power generation efficiency is.

Description

Photovoltaic and photo-thermal integrated assembly

Technical Field

The utility model relates to the technical field of solar photovoltaics, in particular to a photovoltaic and photo-thermal integrated assembly.

Background

The photovoltaic panel is a device for directly or indirectly converting solar radiation energy into electric energy through a photoelectric effect or a photochemical effect by absorbing sunlight, and most of photovoltaic panels are mainly made of silicon;

the existing photovoltaic plates are directly arranged on the upper surface of a supporting frame, then a junction box is fixedly arranged on the lower end face of the photovoltaic plate, and electric energy converted from the photovoltaic plate is received through the junction box, but in the use process of the photovoltaic plate, a large amount of heat can be generated in the photovoltaic plate in the power generation process, and when the internal temperature of the photovoltaic plate is higher, the power generation efficiency of the photovoltaic plate is reduced;

however, considering the construction cost of the photovoltaic panel, in practice, the existing photovoltaic power station generally does not take cooling measures on the photovoltaic panel, the photovoltaic panel is mainly cooled naturally, and the speed of cooling naturally is slower, so that the photovoltaic panel is in a higher temperature state most of the time, and the power generation efficiency of the photovoltaic panel is affected.

Disclosure of Invention

The utility model aims to provide a photovoltaic and photo-thermal integrated assembly, which solves the problems that the prior heat dissipating device provided in the background art does not fully utilize the heat in a photovoltaic panel and wastes natural resources.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a photovoltaic, photo-thermal integrated module, the photovoltaic, photo-thermal integrated crystalline silicon module comprising:

the aluminum frame is of a hollow rectangular structure, and glass is arranged on the lower surface of the aluminum frame;

the water tank is arranged on the lower surface of the aluminum frame, and a water tank inlet is fixedly connected to the central symmetrical position of the side wall of one side of the water tank;

the clamping frame is of a fang structure and is clamped on one side wall of the water tank.

Preferably, the side wall fixed connection of one side of glass is in the lower surface central symmetry position of aluminium frame, and the size and the aluminium frame phase-match of glass, and the side wall fixed connection of one side of glass keeping away from the aluminium frame is at the side wall of encapsulation glued membrane, and the size and the glass phase-match of encapsulation glued membrane, and encapsulation glued membrane are provided with two sets of encapsulation glued membrane and are upper and lower even symmetric distribution, are provided with the photovoltaic board between two sets of encapsulation glued membrane, and the upper and lower both sides lateral wall of photovoltaic board is fixed connection respectively at the upper and lower both sides lateral wall of two sets of encapsulation glued membranes.

Preferably, two sets of encapsulation glued membrane pass through the photovoltaic board and connect, and terminal surface fixed connection is in backplate one side lateral wall under the encapsulation glued membrane that is located the photovoltaic board downside, the size and the encapsulation glued membrane phase-match of backplate, and the side lateral wall central symmetry position fixedly connected with terminal box of encapsulation glued membrane, the terminal box is rectangular structure, and the backplate is kept away from the side lateral wall central symmetry position fixedly connected with aluminum alloy runner board of encapsulation glued membrane, and the inside of aluminum alloy runner board is provided with the runner.

Preferably, the size of the aluminum alloy runner plate is matched with the backboard, the antifreezing fluid inlet is fixedly connected to the lower end face of one side wall of the aluminum alloy runner plate, which is close to the junction box, and is of a hollow cylindrical structure, the inside of the antifreezing fluid inlet is connected with one end of the runner, the antifreezing fluid outlet is fixedly connected to the bottom of one side wall of the aluminum alloy runner plate, which is far away from the antifreezing fluid inlet, and the antifreezing fluid outlet and the antifreezing fluid inlet are symmetrically distributed by taking the aluminum alloy runner plate as the center, and the antifreezing fluid outlet is of a hollow cylindrical structure and is connected with the other end of the internal runner of the aluminum alloy runner plate.

Preferably, the lower terminal surface of antifreeze outlet and antifreeze import is fixed connection respectively at the both ends tip of transfer pipe, the transfer pipe is "fang" structure, and the inside of transfer pipe is hollow state, the both ends tip diameter size of transfer pipe and antifreeze outlet, antifreeze import's diameter phase-match, antifreeze import is connected with antifreeze export through the transfer pipe, the inboard of transfer pipe is provided with the circulating pump, and one side of transfer pipe is provided with the support frame, the support frame is provided with four groups, four groups of support frames are rectangle even symmetric distribution, and the equal fixed connection of upper end terminal surface of four groups of support frames is at the lower terminal surface of aluminum alloy runner board, aluminum alloy runner board is placed through four groups of support frames slope.

Preferably, the water tank inlet is hollow cylindrical structure, the inside of water tank inlet is linked together with the inside of water tank, and the water tank keeps away from the one side lateral wall bottom fixedly connected with water tank export of water tank inlet, and the water tank export is hollow cylindrical structure, and the inside of water tank export is linked together with the inside of water tank, and the water tank inlet is connected with the water tank export through the water tank, and the water tank is close to one side lateral wall of transfer tube and has seted up the groove of stepping down.

Preferably, the inside joint of the groove of stepping down has the transfer pipe, the size of transfer pipe and the groove phase-match of stepping down, and be provided with the fixed block directly over the one end tip of the groove of stepping down, the fixed block is fixed to be set up in one side lateral wall of water tank, and the fixed block is provided with two sets of, two sets of fixed blocks use the water tank to carry out symmetric distribution as the center, and every fixed block of group is provided with two, two water tanks use the groove of stepping down as the center and carry out symmetric distribution, and the relative lateral wall central symmetry position of two fixed blocks has all seted up flutedly.

Preferably, the central symmetry position of the inside central wall of recess is pegged graft and is provided with the pull rod, and the one end tip of pull rod passes the fixed block and extends to the outside of fixed block, and the surface cover of pull rod is equipped with first reset spring, and first reset spring is fixed to be set up between the outside lateral wall central symmetry position of fixed block and the one end tip that the pull rod kept away from the recess, and the pull rod is pegged graft in the inside of recess through first reset spring elasticity.

Preferably, the joint frame joint is in the inside of the groove of stepping down, the size of joint frame and the groove phase-match of stepping down, the transfer pipe passes through the inside of the groove of stepping down of joint frame joint, and the upper and lower end tip central symmetry position of joint frame is all fixed to be provided with sealed the pad, the one end terminal surface joint of joint frame is kept away from to sealed pad is in the surface of the groove of stepping down, and the draw-in groove has all been seted up to the both ends tip central symmetry position of joint frame, the size of draw-in groove and the diameter size phase-match of transfer pipe.

Preferably, the outer end surfaces at two ends of the clamping frame are fixedly provided with clamping blocks, the clamping blocks and the fixing blocks are positioned at the same horizontal position, the central symmetrical positions of the upper side wall and the lower side wall of the clamping blocks are provided with sinking grooves, limiting blocks are inserted into the sinking grooves, the size of the limiting blocks is matched with that of the clamping blocks, the limiting blocks are far away from the size of one end part of the sinking grooves and the size of the grooves, the second reset springs are arranged in the sinking grooves and are fixedly arranged between the central symmetrical positions of the inner parts of the sinking grooves and the central symmetrical positions of the lower end surfaces of the limiting blocks, the second reset springs are provided with two groups, and the two groups of second reset springs are symmetrically distributed by taking the sinking grooves as the centers

Compared with the prior art, the utility model has the beneficial effects that:

according to the photovoltaic and photo-thermal integrated assembly, the circulating pump in the conversion pipe is started, the circulating pump drives the cooling liquid to circulate in the aluminum alloy runner plate, heat generated by the photovoltaic plate in the power generation process is transferred to the cooling liquid in the aluminum alloy runner plate, then the cooling liquid exchanges heat with low-temperature water in the water tank through the conversion pipe, the low-temperature water in the water tank is changed into high-temperature water, and the high-temperature water can be used as domestic hot water or heating water in winter, so that the dual functions of power generation and hot water application are achieved, and the lower the temperature of the photovoltaic plate assembly is, the higher the power generation efficiency is.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1;

FIG. 3 is a schematic diagram of the structure of the water tank of the present utility model;

FIG. 4 is a schematic view of a clamping frame according to the present utility model;

FIG. 5 is a schematic view of the structure of the clamping block according to the present utility model;

fig. 6 is an exploded view of the photovoltaic panel structure of the present utility model.

In the figure: the novel anti-freezing device comprises an aluminum frame 1, glass 2, a junction box 3, a supporting frame 4, a water tank 5, a water tank inlet 6, a conversion pipe 7, a clamping frame 8, a fixed block 9, a pull rod 10, a first reset spring 11, a clamping block 12, a limiting block 13, a sink 14, a groove 15, a water tank outlet 16, a yielding groove 17, a clamping groove 18, a sealing gasket 19, a second reset spring 20, a packaging adhesive film 21, a photovoltaic panel 22, a backboard 23, an anti-freezing liquid inlet 24, an anti-freezing liquid outlet 25 and an aluminum alloy runner plate 26.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 6, the present utility model provides a technical solution: a photovoltaic, photo-thermal integrated assembly, the photovoltaic, photo-thermal integrated crystalline silicon assembly includes:

the aluminum frame 1, the aluminum frame 1 is of a hollow rectangular structure, the lower surface of the aluminum frame 1 is provided with glass 2, one side wall of the glass 2 is fixedly connected to the center symmetrical position of the lower surface of the aluminum frame 1, the size of the glass 2 is matched with that of the aluminum frame 1, one side wall of the glass 2 far away from the aluminum frame 1 is fixedly connected to one side wall of the packaging adhesive film 21, the size of the packaging adhesive film 21 is matched with that of the glass 2, the packaging adhesive film 21 is provided with two groups of packaging adhesive films 21 which are uniformly and symmetrically distributed up and down, a photovoltaic panel 22 is arranged between the two groups of packaging adhesive films 21, the upper side wall and the lower side wall of the photovoltaic panel 22 are respectively fixedly connected to the upper side wall and the lower side wall of the two groups of packaging adhesive films 21, the two groups of packaging adhesive films 21 are connected through the photovoltaic panel 22, the lower end surface of the packaging adhesive film 21 positioned at the lower side of the photovoltaic panel 22 is fixedly connected to one side wall of the backboard 23, the size of the backboard 23 is matched with the packaging adhesive film 21, the junction box 3 is fixedly connected to the central symmetry position of one side wall of the packaging adhesive film 21, the junction box 3 is in a rectangular structure, the central symmetry position of one side wall of the back plate 23 far away from the packaging adhesive film 21 is fixedly connected with the aluminum alloy runner plate 26, the inside of the aluminum alloy runner plate 26 is provided with a runner, the size of the aluminum alloy runner plate 26 is matched with that of the back plate 23, the lower end face of one side wall of the aluminum alloy runner plate 26 close to the junction box 3 is fixedly connected with the antifreeze inlet 24, the antifreeze inlet 24 is in a hollow cylindrical structure, the inside of the antifreeze inlet 24 is connected with one end of the runner, the bottom of one side wall of the aluminum alloy runner plate 26 far away from the antifreeze inlet 24 is fixedly connected with the antifreeze outlet 25, the antifreeze outlet 25 and the antifreeze inlet 24 are symmetrically distributed by taking the aluminum alloy runner plate 26 as the center, and the antifreeze outlet 25 is in a hollow cylindrical structure, the antifreeze outlet 25 is connected with the other end of the runner inside the aluminum alloy runner plate 26, the lower end faces of the antifreeze outlet 25 and the antifreeze inlet 24 are respectively and fixedly connected with the end parts of the two ends of the conversion pipe 7, the conversion pipe 7 is of a fang structure, the inside of the conversion pipe 7 is in a hollow state, the diameter of the end parts of the two ends of the conversion pipe 7 is matched with the diameters of the antifreeze outlet 25 and the antifreeze inlet 24, the antifreeze inlet 24 is connected with the antifreeze outlet 25 through the conversion pipe 7, a circulating pump is arranged on the inner side of the conversion pipe 7, one side of the conversion pipe 7 is provided with the support frames 4, the support frames 4 are provided with four groups of support frames 4 which are uniformly and symmetrically distributed in a rectangular shape, the upper end faces of the four groups of support frames 4 are fixedly connected with the lower end faces of the aluminum alloy runner plate 26, and the aluminum alloy runner plate 26 is obliquely arranged through the four groups of support frames 4;

the water tank 5, the water tank 5 sets up the lower surface at aluminium frame 1, the water tank import 6 of a side wall central symmetry position fixedly connected with of water tank 5, water tank import 6 is cavity cylinder type structure, the inside of water tank import 6 and the inside of water tank 5 are linked together, and water tank 5 is kept away from a side wall bottom fixedly connected with water tank export 16 of water tank import 6, water tank export 16 is cavity cylinder type structure, the inside of water tank export 16 and the inside of water tank 5 are linked together, water tank import 6 is connected with water tank export 16 through water tank 5, and water tank 5 is close to one side lateral wall of change-over tube 7 and has offered the groove 17 of stepping down, the inside joint of groove 17 has change-over tube 7, the size of change-over tube 7 and the groove 17 phase-match of stepping down, and the one end tip of groove 17 is provided with fixed block 9 directly over, fixed block 9 sets up in one side wall of water tank 5, and fixed block 9 are provided with two sets of fixed block 9, two sets of fixed block 9 take water tank 5 as the center and carry out symmetric distribution, and every fixed block 9 is provided with two, two water tank 5 take down groove 17 as the center and be symmetric distribution, and two fixed block 9 are equipped with the inner diameter of groove 15 of tie rod 15 opposite to the inside of change-over groove 15, the end 15 is equipped with a fixed spring 15, the end of tie rod is fixed to the inside 15 is fixed to the end 10 at the inside of a tie rod 15, the end of a tie rod is fixed end 10, the end is set up at the end 15 and the end of a tie rod is fixed at 10, and the end of a position of the tie rod is fixed end 10, and is set at the end 15 and has at the end 15 opposite to the end of the tie rod is fixed at the end of the tie rod and has and at the end at 15;

the clamping frame 8, the clamping frame 8 is "fang" structure, the clamping frame 8 joint is in one side lateral wall of water tank 5, the clamping frame 8 joint is in the inside of the groove 17 of stepping down, the size of clamping frame 8 and the inside of the groove 17 of stepping down phase-match, transfer line 7 passes through the clamping frame 8 joint in the inside of the groove 17 of stepping down, and the upper and lower end tip central symmetry position of clamping frame 8 is all fixed and is provided with sealing gasket 19, sealing gasket 19 keeps away from the one end terminal surface joint of clamping frame 8 at the surface of the groove 17 of stepping down, and clamping groove 18 has all been seted up to the both ends tip central symmetry position of clamping frame 8, the size of clamping groove 18 and the diameter size phase-match of transfer line 7, the both ends outer terminal surface of clamping frame 8 is all fixed and is provided with joint piece 12, joint piece 12 and fixed block 9 are located same horizontal position, the inside grafting of heavy groove 14 has stopper 13, the size of stopper 13 and heavy groove 12 phase-match, and heavy end 13 keep away from the inside of heavy groove 14 of stopper and heavy groove 14 and the inside of heavy groove 20 of second end 20, the inside of the heavy end 20 sets of heavy end 20 are arranged at the second end, the inside of heavy end 20 sets of heavy end 20 and the inside of heavy end 20 sets of heavy end 20.

When the solar energy photovoltaic panel assembly is used, the circulating pump in the conversion pipe 7 is started, the circulating pump drives cooling liquid to circulate in the aluminum alloy runner plate 26, heat generated by the photovoltaic panel 22 is transferred to the cooling liquid in the aluminum alloy runner plate 26 in the power generation process, then the cooling liquid exchanges heat with low-temperature water in the water tank 5 through the conversion pipe 7, the low-temperature water in the water tank 5 is changed into high-temperature water, the high-temperature water is discharged through the water pump in the water tank and pumped into circulation, the high-temperature water can be used as domestic hot water or winter heating water, so that the dual functions of power generation and hot water application are achieved, and the lower the temperature of the photovoltaic panel assembly is, the higher the power generation efficiency is;

when the conversion pipe 7 needs to be overhauled, the water tank 5 and the conversion pipe 7 need to be separated, the clamping frame 8 is firstly taken down from one side of the conversion pipe 7 during separation, the two groups of pull rods 10 on the same side are firstly pressed down, the pull rods 10 squeeze the limiting block 13, and when the end part of the limiting block 13 moves out of the groove 15, the clamping frame 8 can be taken out from the groove 17, so that the water tank 5 is separated from the conversion pipe 7.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a photovoltaic, photo-thermal integration subassembly which characterized in that: the photovoltaic and photo-thermal integrated crystalline silicon component comprises:

the aluminum frame (1), the aluminum frame (1) is of a hollow rectangular structure, and glass (2) is arranged on the lower surface of the aluminum frame (1);

the water tank (5) is arranged on the lower surface of the aluminum frame (1), and a water tank inlet (6) is fixedly connected to the central symmetry position of the side wall of one side of the water tank (5);

the clamping frame (8), the clamping frame (8) is of a fang structure, and the clamping frame (8) is clamped on one side wall of the water tank (5).

2. The photovoltaic, photo-thermal integrated assembly of claim 1, wherein: one side lateral wall fixed connection of glass (2) is in the lower surface central symmetry position of aluminium frame (1), the size of glass (2) and aluminium frame (1) assorted, one side lateral wall fixed connection of glass (2) keep away from aluminium frame (1) is at one side lateral wall of encapsulation glued membrane (21), the size and the glass (2) assorted of encapsulation glued membrane (21), and encapsulation glued membrane (21) are provided with two sets of encapsulation glued membrane (21) and are about even symmetric distribution, be provided with photovoltaic board (22) between two sets of encapsulation glued membrane (21), the upper and lower both sides lateral wall of photovoltaic board (22) is fixed connection respectively at the upper and lower both sides lateral wall of two sets of encapsulation glued membrane (21).

3. A photovoltaic, photo-thermal integrated assembly as claimed in claim 2, wherein: two sets of encapsulation glued membrane (21) are connected through photovoltaic board (22), terminal surface fixed connection is in backplate (23) one side lateral wall under encapsulation glued membrane (21) that are located photovoltaic board (22) downside, the size and the encapsulation glued membrane (21) phase-match of backplate (23), and the side lateral wall central symmetry position fixedly connected with terminal box (3) of encapsulation glued membrane (21), terminal box (3) are rectangular structure, the side lateral wall central symmetry position fixedly connected with aluminum alloy runner board (26) of backplate (23) keeping away from encapsulation glued membrane (21), the inside of aluminum alloy runner board (26) is provided with the runner.

4. A photovoltaic, photo-thermal integrated assembly according to claim 3, characterized in that: the size of the aluminum alloy runner plate (26) is matched with that of the backboard (23), an antifreezing solution inlet (24) is fixedly connected to the lower end face of one side wall of the aluminum alloy runner plate (26) close to the junction box (3), the antifreezing solution inlet (24) is of a hollow cylindrical structure, the inside of the antifreezing solution inlet (24) is connected with one end of a runner, an antifreezing solution outlet (25) is fixedly connected to the bottom of one side wall of the aluminum alloy runner plate (26) away from the antifreezing solution inlet (24), the antifreezing solution outlet (25) and the antifreezing solution inlet (24) are symmetrically distributed by taking the aluminum alloy runner plate (26) as the center, the antifreezing solution outlet (25) is of a hollow cylindrical structure, and the antifreezing solution outlet (25) is connected with the other end of an internal runner of the aluminum alloy runner plate (26).

5. The photovoltaic, photo-thermal integrated assembly of claim 4, wherein: the anti-freezing liquid outlet (25) and the lower terminal surface of anti-freezing liquid inlet (24) are fixed connection respectively at the both ends tip of transfer pipe (7), transfer pipe (7) are "fang" structure, and the inside of transfer pipe (7) is hollow state, the both ends tip diameter size of transfer pipe (7) and anti-freezing liquid outlet (25), the diameter phase-match of anti-freezing liquid inlet (24), anti-freezing liquid inlet (24) are connected with anti-freezing liquid outlet (25) through transfer pipe (7), the inboard of transfer pipe (7) is provided with the circulating pump, and one side of transfer pipe (7) is provided with support frame (4), support frame (4) are provided with four groups, four groups of support frame (4) are the even symmetric distribution of rectangle, and the upper end terminal surface of four groups of support frame (4) is fixed connection in the lower terminal surface of aluminum alloy runner board (26), aluminum alloy runner board (26) are placed through four groups of support frame (4) slope.

6. The photovoltaic, photo-thermal integrated assembly of claim 1, wherein: the water tank inlet (6) is of a hollow cylindrical structure, the inside of the water tank inlet (6) is communicated with the inside of the water tank (5), the water tank (5) is far away from a side wall bottom of the water tank inlet (6) and fixedly connected with a water tank outlet (16), the water tank outlet (16) is of a hollow cylindrical structure, the inside of the water tank outlet (16) is communicated with the inside of the water tank (5), the water tank inlet (6) is connected with the water tank outlet (16) through the water tank (5), and a yielding groove (17) is formed in the side wall of the water tank (5) close to the conversion pipe (7).

7. The photovoltaic, photo-thermal integrated assembly of claim 6, wherein: the inside joint of groove (17) of stepping down has transfer pipe (7), the size of transfer pipe (7) and groove (17) phase-match of stepping down, and be provided with fixed block (9) directly over the one end tip of groove (17) of stepping down, fixed block (9) are fixed to be set up in one side lateral wall of water tank (5), and fixed block (9) are provided with two sets of, two sets of fixed blocks (9) use water tank (5) as the center and carry out symmetric distribution, and every fixed block (9) of group are provided with two, and two water tanks (5) use groove (17) of stepping down as the center and carry out symmetric distribution, and recess (15) are all seted up to the relative lateral wall central symmetry position of two fixed blocks (9).

8. The photovoltaic, photo-thermal integrated assembly of claim 7, wherein: the utility model discloses a recess, including recess (15) and recess (15), the central symmetry position grafting of inside central wall is provided with pull rod (10), and one end tip of pull rod (10) passes fixed block (9) and extends to the outside of fixed block (9), and the surface cover of pull rod (10) is equipped with first reset spring (11), and first reset spring (11) are fixed to be set up between the outside lateral wall central symmetry position of fixed block (9) and the one end tip of recess (15) is kept away from to pull rod (10), and pull rod (10) are through the inside of first reset spring (11) elasticity grafting at recess (15).

9. The photovoltaic, photo-thermal integrated assembly of claim 1, wherein: the clamping frame (8) is clamped in the yielding groove (17), the clamping frame (8) is matched with the yielding groove (17), the conversion tube (7) is clamped in the yielding groove (17) through the clamping frame (8), sealing gaskets (19) are fixedly arranged at the center symmetrical positions of the upper end and the lower end of the clamping frame (8), the sealing gaskets (19) are far away from the end face of one end of the clamping frame (8) and are clamped on the surface of the yielding groove (17), clamping grooves (18) are formed in the center symmetrical positions of the end parts of the two ends of the clamping frame (8), and the sizes of the clamping grooves (18) are matched with the diameters of the conversion tube (7).

10. The photovoltaic, photo-thermal integrated assembly of claim 9, wherein: the clamping frame is characterized in that clamping blocks (12) are fixedly arranged on the outer end faces of two ends of the clamping frame (8), the clamping blocks (12) and the fixing blocks (9) are located at the same horizontal position, sinking grooves (14) are formed in the center symmetrical positions of the upper side wall and the lower side wall of the clamping blocks (12), limiting blocks (13) are inserted into the sinking grooves (14), the limiting blocks (13) and the clamping blocks (12) are matched, the limiting blocks (13) are far away from the size of one end part of the sinking grooves (14) and the size of the grooves (15) are matched, second reset springs (20) are arranged in the sinking grooves (14), the second reset springs (20) are fixedly arranged between the center symmetrical positions of the inner side faces of the sinking grooves (14) and the center symmetrical positions of the lower end faces of the limiting blocks (13), and the second reset springs (20) are arranged in two groups, and the two groups of second reset springs (20) are symmetrically distributed with the sinking grooves (14) as the center.

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